Metabolomic and Transcriptomic Analyses Reveal the Characteristics of Tea Flavonoids and Caffeine Accumulation and Regulation between Chinese Varieties (Camellia sinensis var. sinensis) and Assam Varieties (C. sinensis var. assamica)

Author:

Tang Hao,Zhang Man,Liu Jiayu,Cai Jiao

Abstract

Flavonoids and caffeine are the major secondary metabolites with beneficial bioactivity for human health in tea plants, and their biosynthesis pathway and regulatory networks have been well-deciphered. However, the accumulation traits of flavonoids and caffeine in different tea cultivars was insufficient in investigation. In this study, metabolomic and transcriptomic analyses were performed to investigate the differences of flavonoids and caffeine accumulation and regulation between Chinese varieties, including the ‘BTSC’ group with green leaf, the ‘BTZY’ group with purple foliage, and the ‘MYC’ group comprising Assam varieties with green leaf. The results showed that most of the flavonoids were down-regulated in the ‘MYC’ group; however, the total anthocyanin contents were higher than that of the ‘BTSC’ group while lower than that of the ‘BTZY’ group. An ANS (Anthocyanin synthase) was significantly up-regulated and supposed to play a key role for anthocyanin accumulation in the ‘BTZY’ group. In addition, the results showed that esterified catechins were accumulated in the ‘BTSC’ and ‘BTZY’ groups with high abundance. In addition, SCPL1A (Type 1A serine carboxypeptidase-like acyltransferases gene) and UGGT (UDP glucose: galloyl-1-O-β-d-glucosyltransferase gene) potentially contributed to the up-accumulation of catechins esterified by gallic acid. Interestingly, the results found that much lower levels of caffeine accumulation were observed in the ‘MYC’ group. RT-qPCR analysis suggested that the expression deficiency of TCS1 (Tea caffeine synthase 1) was the key factor resulting in the insufficient accumulation of caffeine in the ‘MYC’ group. Multiple MYB/MYB-like elements were discovered in the promoter region of TCS1 and most of the MYB genes were found preferentially expressed in ‘MYC’ groups, indicating some of which potentially served as negative factor(s) for biosynthesis of caffeine in tea plants. The present study uncovers the characteristics of metabolite accumulation and the key regulatory network, which provide a research reference to the selection and breeding of tea varieties.

Funder

Agricultural competitive industry discipline team building project of Guangdong Academy of Agricultural Sciences

Project proposed by members of the fifth session of the twelfth CPPCC Huizhou

Publisher

MDPI AG

Subject

Genetics (clinical),Genetics

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